Measuring Trace Impurities in Air by Infrared Spectroscopy at 20 Meters Path and 10 Atmospheres Pressure; D. Baker, Jr., DuPont Experimental Station, American Industrial Hygiene Association Journal 835 (Nov. 1974)


Measuring VOCs for the Study of Atmospheric Processes; H.J.Th. Bloemen Et al, National Institute of Public Health and Environmental Protection, International Laboratory (Sept. 1990)

Selective Water Removal in Purge/GC Analysis of Volatile Aromatics in Aqueous Samples; J. Cochran, Northrop Services, Journal of High Resolution Chromatography 10:573 (1987).

A Rapid, Selective Method for the Analysis of Halogenated Gases in Water; J. Cochran, Northrop Services, Journal of High Resolution Chromatography 11: 663 (1988).

2009 -讨论冷凝器能达到的最低露点

Efficiency and Temperature Dependence of Water Removal by Membrane Dryers; K. Leckrone & J. Hayes, Indiana University, Anal. Chem. 69: No. 5, 911 (March, 1997). 

In-Line Analysis of Acid Gases in Water Vapor Saturated Environments; J. Arno, ATMI-EcoSys Corp, Presentation at SEMICON Southwest97 (October, 1997).


Design and Operation of a Sampling Interface for Continuous Source Monitors; A. Wyss & B. Stroud, ITT Inc., Presentation at 70th Annual Meeting of Air Pollution Control Association (June 1977).

Evaluation of the Perma Pure Dryer for Drying Stack Gases; F. Cassidy, Exxon Research and Engineering Co., AID (Aug. 1974).

3003 -Nafion干燥器和干燥剂干燥器干燥CO, CO2和H2气体的比较

Testing of a New Dryer for Top Gas Analysis; M. Bayewitz et al, Bethlehem Steel, Evaluation Report #1004-16 (Aug. 1974).

Development of a Real-Time Monitor for Volatile Fine Particulate Matter; F. Obeidi & D. Eatough, Brigham Young University, Presentation at Air & Waste Management Association 90th Annual Meeting (June 1997).

Integrated and Real-time Diffusion Denuder Samplers for PM2.5, Based on BOSS, PC and TEOM technology; D. Eatough, F. Obeidi, Y. Pang and Y. Ding, Bringham Young University, N. Eatough, California Polytechnic State University, and W. Wilson, US Environmental Protection Agency, Atmos, Environ. (Draft, October, 1997

Characterization of 0.02µm to 1.0µm Particle Losses in Perma Pure Dryers: Dependence on Size, Charge, and Relative Humidity; W. Dick, P. Huang, and P. McMurry, University of Minnesota, Particle Technology Laboratory N. 936 (February, 1995).

RECLAIM Drives Analytical Monitoring Upgrades; D. Podkulski and R. Junge, Chevron Products Company, InTech (August 1997)

Development of an On-Board Analyzer for use on Advanced Low Emission Vehicles; J. Jetter, Shinji Maeshiro, Honda R&D Americas, Inc, S. Hatcho, Honda R&D Co Ltd, R Klebba Nicolet Instrument Corp, Society of Automotive Engineers, Emission Measurement and Testing (March, 2000)


Flow Injection Donnan Dialysis Preconcentration of Cations for Flame Atomic Absorption Spectrophotometry; J. Koropchak & L. Allen, Southern Illinois University, (March 1989).

Flow Injection Reagent Introduction by Supported Liquid and Nafion Membranes: Determination of Phosphate; J. Tyson et al, University of Massachusetts, Talanta 41: 1797 (1994).

Elimination of Matrix Interferences in Ion Chromatographic Analysis of Difficult Aqueous Samples; W. Jones & P. Jandik, Waters Div. of Millipore, Journal of Chromatographic Science 27: 449 (1989).

Use of a multi-tube Nafion membrane dryer for desolvation with thermospray sample introduction to inductively coupled plasma- atomic emission spectrometry; Jinfu Yang, Timothy S. Conver, John A. Koropchak, David A. Leighty, Spectrochimica Acta Part B 51 1491-1503 (1996).

Elimination of Nitric Acid Interference in CP-AES by Using a Cyclonic Spray Chamber/Nafion Membrane- based Desolvation System; Antonio Canals, Luis Gras, and Humberto Contreras, University of Alicante, Journal of Analytical Atomic Spectrometry 17, 219-226 (2002)4009-nitric-acid-interference-ICP.pdf